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Munis Dundar, Satya Prakash, Ratnesh Lal and Donald K. Martin

medical implants. Journal of Nanobiotechnology 2017; 15(1):64. 9. Bentley WE, Martin DK, Gotoh T. Biomimetic and bioinspired biotechnology. Biotechnology Journal 2018; 13:1800670 10. Alcaraz JP, Cinquin P, Martin DK. Tackling the concept of symbiotic implantable medical devices with nanobiotechnologies. Biotechnology Journal 2018; 13:1800102. 11. Coyle M, Hu J,Gartner Z. Mysteries in a minimal genome, ACS Central Science 2016; 2(5): 274-277. 12. Tambuyzer E. Biotechnology-based orphan drugs achievements and challenges. Drug Discovery World 2003

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Lali Kutateladze, Nino Zakariashvili, Izolda Khokhashvili, Maya Jobava, Tinatin Alexidze, Tamar Urushadze and Edisher Kvesitadze

-p-dioxin at Times Beach, Missouri ed. // Solving Hazardous Waste Problems, ACS Symposium 1987; Series Num. 338. 4. Yanders AF, Orazio CE, Puri RK, Kapila S. On translocation of 2.3.7.8 -tetrachlorodibenzo-p-dioxin: time dependent analysis at the Times Beach experimental site. Chemosphere 1989; 19(1-6):429-432. 5. Lee S, Lee SY, Shin KS. Biodegradation of 2,4,6-trinitrotoluene by White-Rot Fungus.Mycobiology 2009; 37(1): 17-20. 6. Solyanikova IP, Baskunov BP, Baboshin MA, Saralov AI, Golovleva LA. Detoxification of high

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Anthony Singer, Eleni Markoutsa, Alya Limayem, Subhra Mohapatra and Shyam S. Mohapatra

References 1. Iavicoli I, Leso V, Ricciardi W, Hodson LL, Hoover MD. Opportunities and challenges of nanotechnology in the green economy. Environ Health 2014; 13:78. 2. Hutchison JE. The Road to Sustainable Nanotechnology: Challenges, Progress and Opportunities. ACS Sustain Chem Eng 2016; 4:5907-5914. 3. Cheng HN, Doemeny LJ, Geraci CL, Grob Schmidt D. Nanotechnology Overview: Opportunities and Challenges. Nanotechnology: Delivering on the Promise Volume 1. Volume 1220: American Chemical Society, 2016

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Asghar Mesbahi, Fatemeh Famouri, Mohammad Johari Ahar, Maryam Olade Ghaffari and Seyed Mostafa Ghavami

-ray contrast agents. J Colloid Interface Sci. 2015;439:28-33. [23] Silvestri A, Zambelli V, Ferretti AM, et al. Design of functionalized gold nanoparticle probes for computed tomography imaging. Contrast Media Mol Imaging. 2016;11(5):405-414. [24] Zhou B, Zheng L, Peng C, et al. Synthesis and characterization of PEGylated polyethylenimine-entrapped gold nanoparticles for blood pool and tumor CT imaging. ACS Appl Mater Interfaces 2014;6(19):17190-17199. [25] Ebrahimi M, Johari-Ahar M, Hamzeiy H, et al. Electrochemical impedance spectroscopic sensing of

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Cecilia Virginia Gheran, Sorina Nicoleta Voicu, Guillaume Rigaux, Maite Callewaert, Francoise Chuburu and Anca Dinischiotu

R, Ling D, Zhao L, Wang S, Liu Y, Bai R, Baik S, Zhao Y, Chen C, Hyeon T. Parallel comparative studies on mouse toxicity of oxide nanoparticle- and gadolinium-based T1 MRI contrast agents. ACS Nano 2015; 9(12): 12425-12435. 51. Idee JM, Fretellier N, Robic C, Corot C. The role of gadolinium chelates in the mechanism of nephrogenic systemic fibrosis: A critical update. Crit Rev Toxicol 2014; 44: 895-913. 52. Pereira LVB, Shimizu MHM, Rodrigues LPMR, Leite CC, Andrade L, Seguro AC. N-acetylcysteine protects rats with chronic renal

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Martin Koller and Gerhart Braunegg

; 135: 84-90. 30. Dubey S, Bharmoria P, Gehlot PS, Agrawal V, Kumar A, Mishra S. 1-Ethyl-3-methylimidazolium diethylphosphate based extraction of bioplastic “Polyhydroxyalkanoates” from bacteria: Green and Sustainable Approach. ACS Sust Chem Eng 2017; 6(1): 766-773. 31. Ong SY, Zainab-L I, Pyary S, Sudesh K. A novel biological recovery approach for PHA employing selective digestion of bacterial biomass in animals. Appl Microbiol Biotechnol 2018; 122(5): 2117–2127. 32. Hsiao LJ, Lee MC, Chuang PJ, Kuo YY, Lin JH, Wu TM, Li SY. The production of poly

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Evgeni Eltzov, Abri Lavena De Cesarea, ‘Yuen Kei Adarina Low and Robert S. Marks

, Boscolo-Chio R, Signorini S,Rigo A, On-line detection of atmospheric formaldehyde by a conductometric biosensor. Biosensors and Bioelectronics, 2007; 22(6): p. 920-925. 126. Ray S, Panjikar S,Anand R, Design of Protein-Based Biosensors for Selective Detection of Benzene Groups of Pollutants. ACS Sensors, 2018; 3(9): p. 1632-1638. 127. Li S, Liu H, Yang G, Liu S, Liu R,Lv C, Detection of radon with biosensors based on the lead(II)-induced conformational change of aptamer HTG and malachite green fluorescence probe. Journal of Environmental Radioactivity, 2018

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M. Amini, J. Hisdal and H. Kalvøy

Continuous Monitoring of Microtissue Spheroids. Anal Chem. 2016;88(22). https://doi.org/10.1021/acs.analchem.6b01410 Bürgel SC Diener L Frey O Kim JY Hierlemann A Automated, Multiplexed Electrical Impedance Spectroscopy Platform for Continuous Monitoring of Microtissue Spheroids Anal Chem 2016 88 22 https://doi.org/10.1021/acs.analchem.6b01410 85 Schmid YRF, Burgel SC. Electrical Impedance Spectroscopy for Microtissue Spheroid Analysis in Hanging-Drop Networks. ACS Sens. 2016;1(8). Schmid YRF Burgel SC Electrical Impedance